Optical control of mammalian endogenous transcription and epigenetic states.
. 2013. Optical control of mammalian endogenous transcription and epigenetic states. Nature. 500(7463):472-6. Google Scholar PubMed. Google Scholar PubMed
Posts
Dissecting neural function using targeted genome engineering technologies.
/0 Comments/in Publications /by syn-adminHsu PD, Zhang F. 2012. Dissecting neural function using targeted genome engineering technologies. ACS Chem Neurosci. 3(8):603-10. Google Scholar PubMed
Molecular tools and approaches for optogenetics.
/0 Comments/in Publications /by syn-adminMei Y, Zhang F. 2012. Molecular tools and approaches for optogenetics. Biol Psychiatry. 71(12):1033-8. Google Scholar PubMed
Wireless neural stimulation in freely behaving small animals.
/0 Comments/in Publications /by syn-adminArfin SK, Long MA, Fee MS, Sarpeshkar R. 2009. Wireless neural stimulation in freely behaving small animals. J Neurophysiol. 102(1):598-605. Google Scholar PubMed
Scalable hybrid computation with spikes.
/0 Comments/in Publications /by syn-adminSarpeshkar R, O’Halloran M. 2002. Scalable hybrid computation with spikes. Neural Comput. 14(9):2003-38. Google Scholar PubMed
SSeCKS immunolabeling in rat primary sensory neurons.
/0 Comments/in Publications /by syn-adminSiegel SM, Grove BD, Carr PA. 2002. SSeCKS immunolabeling in rat primary sensory neurons. Brain Res. 926(1-2):126-36. Google Scholar PubMed
Peptidergic input to immunohistochemically-identified Renshaw cells.
/0 Comments/in Publications /by syn-adminCarr PA, Roller MJ, Zaruba RA. 2000. Peptidergic input to immunohistochemically-identified Renshaw cells. Brain Res. 887(1):194-8. Google Scholar PubMed
Digital selection and analogue amplification coexist in a cortex-inspired silicon circuit.
/0 Comments/in Publications /by syn-adminHahnloser RH, Sarpeshkar R, Mahowald MA, Douglas RJ, Seung HS. 2000. Digital selection and analogue amplification coexist in a cortex-inspired silicon circuit. Nature. 405(6789):947-51. Google Scholar PubMed
Spinal cholinergic neurons activated during locomotion: localization and electrophysiological characterization.
/0 Comments/in Publications /by syn-adminHuang A, Noga BR, Carr PA, Fedirchuk B, Jordan LM. 2000. Spinal cholinergic neurons activated during locomotion: localization and electrophysiological characterization. J Neurophysiol. 83(6):3537-47. Google Scholar PubMed
Distribution of 5-hydroxytryptamine-immunoreactive boutons on immunohistochemically-identified Renshaw cells in cat and rat lumbar spinal cord.
/0 Comments/in Publications /by syn-adminCarr PA, Pearson JC, Fyffe RE. 1999. Distribution of 5-hydroxytryptamine-immunoreactive boutons on immunohistochemically-identified Renshaw cells in cat and rat lumbar spinal cord. Brain Res. 823(1-2):198-201. Google Scholar PubMed
